0084.Abhirami Andhadhi Slogan 82 Poem by rajagopal. h..

To Get Relief from Forgetfulness


Tamil Transliteration

Aliyaar kamalaththil aaranangae akilaandamum ninn
Oliyaaga ninndra olirthirumaeniyai ullundh thorum
Kaliyaagi anthak karanangal vimmik karai purandu
Veliyaai vidin eng ganamae marappaen ninn viraginaiyae

Translation

Hey beauty the supreme, seated on the lotus,
Thronged by the wasps, glowing source, your body
Glittering all over, you illuminate the cosmos everywhere!
A volley of happiness springs forth and swells
For every bout of remembrance of thy glamour
Culminating in all my inner senses emerging, thrashing the boundaries
And engulfing the space around losing the duality!
How shall I forget thy mechanization of grace?


Simple Meaning:

Hey Abhyirami! You are seated on the lotus flower which is thronged by wasps. You are the source of light illuminating the whole universe; whenever I think of your graceful beauty, my senses lose their control breaking all boundaries and merge with the all pervading space; how will I forget your scheme of grace?

Commentary:

When celestial bodies show up they emanate powerful light energy which a normal human eye can not perceive.

To get the help of science to explain this concept, we may have to go to the basics of light; light is available in 3 different categories:

IR Range
UV Range
Visible Range

(Also we have X Rays and Gamma Rays)

Infrared: We often think of this as being the same thing as 'heat', because it makes our skin feel warm. In space, IR light maps the dust between stars.

Visible: Yes, this is the part that our eyes see. Visible radiation is emitted by everything from fireflies to light bulbs to stars... also by fast-moving particles hitting other particles.

Ultraviolet: We know that the Sun is a source of ultraviolet (or UV) radiation, because it is the UV rays that cause our skin to burn! Stars and other 'hot' objects in space emit UV radiation.

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Details:

IR

The term 'infrared' refers to a broad range of frequencies, beginning at the top end of those frequencies used for communication and extending up the the low frequency (red) end of the visible spectrum. The wavelength range is from about 1 millimeter down to 750 nm. The range adjacent to the visible spectrum is called the 'near infrared' and the longer wavelength part is called 'far infrared'.
In interactions with matter, infrared primarily acts to set molecules into vibration. Infrared spectrometers are widely used to study the vibrational spectra of molecules.
Infrared does not penetrate the atmosphere well, but astronomy in the infrared is carried out with the Spitzer Space Telescope.

Frequencies: .003 - 4 x 1014 Hz
Wavelengths: 1 mm - 750 nm
Quantum energies: 0.0012 - 1.65 eV

Visible

The narrow visible part of the electromagnetic spectrum corresponds to the wavelengths near the maximum of the Sun's radiation curve. In interactions with matter, visible light primarily acts to elevate electrons to higher energy levels.
Frequencies: 4 - 7.5 x 1014 Hz
Wavelengths: 750 - 400 nm
Quantum energies: 1.65 - 3.1 eV

UV

The region just below the visible in wavelength is called the near ultraviolet. It is absorbed very strongly by most solid substances, and even absorbed appreciably by air. The shorter wavelengths reach the ionization energy for many molecules, so the far ultraviolet has some of the dangers attendent to other ionizing radiation. The tissue effects of ultraviolet include sunburn, but can have some therapeutic effects as well. The sun is a strong source of ultraviolet radiation, but atmospheric absorption eliminates most of the shorter wavelengths. The eyes are quite susceptible to damage from ultraviolet radiation. Welders must wear protective eye shields because of the uv content of welding arcs can inflame the eyes. Snow-blindness is another example of uv inflamation; the snow reflects uv while most other substances absorb it strongly.
Frequencies: 7.5 x 1014 - 3 x 1016 Hz
Wavelengths: 400 nm - 10 nm
Quantum energies: 3.1 - 124 eV

X Ray

X-ray was the name given to the highly penetrating rays which emanated when high energy electrons struck a metal target. Within a short time of their discovery, they were being used in medical facilities to image broken bones. We now know that they are high frequency electromagnetic rays which are produced when the electrons are suddenly decelerated - these rays are called bremsstrahlung radiation, or 'braking radiation'. X-rays are also produced when electrons make transitions between lower atomic energy levels in heavy elements. X-rays produced in this way have have definite energies just like other line spectra from atomic electrons. They are called characteristic x-rays since they have energies determined by the atomic energy levels.
In interactions with matter, x-rays are ionizing radiation and produce physiological effects which are not observed with any exposure of non-ionizing radiation, such as the risk of mutations or cancer in tissue.
Astronomical observations in the X-ray region of the spectrum are obtained with the Chandra X-ray Observatory.
Frequencies: 3 x 1016 Hz upward
Wavelengths: 10 nm - downward
Quantum energies: 124 eV - upward


Gamma Rays

The term gamma ray is used to denote electromagnetic radiation from the nucleus as a part of a radioactive process. The energy of nuclear radiation is extremely high because such radiation is born in the intense conflict between the nuclear strong force and the electromagnetic force, the two strongest basic forces. The gamma ray photon may in fact be identical to an x-ray, since both are electromagnetic rays; the terms x-ray and gamma rays are statements about origin rather than implying different kinds of radiation.
In interactions with matter, gamma rays are ionizing radiation and produce physiological effects which are not observed with any exposure of non-ionizing radiation, such as the risk of mutations or cancer in tissue.
Frequencies: typically 1020 Hz
Wavelengths: typically 1 MeV



To perceive IR and UV rays special sensors are required.

If Abirami Bhattar claims that he has seen Abhirami out of the flooding of light it is nothing short of Abhirami’s grace as it is she who has made him see Her form.

In Mahabharata epic, Shri Krishna showed up his Viswaroopa (Full Form) which was similar to the one explained above. Only a few enlightened souls like, Bhisma. Arjuna. Vithura and Drona could perceive that form. (Sanchaya also got that special power so that he could narrate the happenings in the battle field to Dridharashtra) . All others had to close their eyes as they could not withstand the vigor of the light rays.

29 10 2008